0000000001274032
AUTHOR
Jarkko Laitalainen
Fight evolution with evolution: plasmid‐dependent phages with a wide host range prevent the spread of antibiotic resistance
The emergence of pathogenic bacteria resistant to multiple antibiotics is a serious worldwide public health concern. Whenever antibiotics are applied, the genes encoding for antibiotic resistance are selected for within bacterial populations. This has led to the prevalence of conjugative plasmids that carry resistance genes and can transfer themselves between diverse bacterial groups. In this study, we investigated whether it is feasible to attempt to prevent the spread of antibiotic resistances with a lytic bacteriophage, which can replicate in a wide range of gram‐negative bacteria harbouring conjugative drug resistance–conferring plasmids. The counter‐selection against the plasmid was sh…
Constructing endothelial-specific hypoxia-regulated vectors
Soluspesifinen geenien ilmentyminen on molekyylibiologian yksi suurista tutkimusalueista. Geenit aktivoituvat eri solutyypeissä eri tavoin, vaikka soluissa on sama geneettinen perimä. Tutkimuksissa on löydetty useita tekijöitä mm. enhanserit ja enhanseri-RNA molekyylit, jotka vaikuttavat mm. solukohtaiseen geenin ilmentymiseen. Enhanserit ovat alueita genomissa, jotka sitovat proteiineja ja vuorovaikuttavat transkriptiokompleksin kanssa lisäten geenin transkriptiota. Enhanseri-RNA:t ovat enhaserialueilta tuottettuja RNA-molekyylejä. Geenin ilmentymiseen vaikuttaa todella moniulotteinen säätelyjärjestelmä, kun mukaan lasketaan kaikki transkriptioon ja translaatioon vaikuttavat tekijät. Endot…
Data from: Fight evolution with evolution: plasmid-dependent phages with a wide host range prevent the spread of antibiotic resistances
The emergence of pathogenic bacteria resistant to multiple antibiotics is a serious worldwide public health concern. Whenever antibiotics are applied, the genes encoding for antibiotic resistance are selected for within bacterial populations. This has led to the prevalence of conjugative plasmids that carry resistance genes and can transfer themselves between diverse bacterial groups. In this study, we investigated whether it is feasible to attempt to prevent the spread of antibiotic resistances with a lytic bacteriophage, which can replicate in a wide range of gram-negative bacteria harboring conjugative drug-resistance conferring plasmids. The counter-selection against the plasmid was sho…